TR2010-115

Level Crossing Rates and Average Outage Durations of SINR with Multiple Co-Channel Interferers

    •  Annavajjala, R., Zhang, J., "Level Crossing Rates and Average Outage Durations of SINR with Multiple Co-Channel Interferers", IEEE Military Communications Conference (MILCOM), October 2010, pp. 1233-1238.
      BibTeX TR2010-115 PDF
      • @inproceedings{Annavajjala2010oct,
      • author = {Annavajjala, R. and Zhang, J.},
      • title = {Level Crossing Rates and Average Outage Durations of SINR with Multiple Co-Channel Interferers},
      • booktitle = {IEEE Military Communications Conference (MILCOM)},
      • year = 2010,
      • pages = {1233--1238},
      • month = oct,
      • issn = {2155-7578},
      • url = {https://www.merl.com/publications/TR2010-115}
      • }
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  • Research Area:

    Communications

Abstract:

Knowledge of the level crossing rates (LCR) and average outage durations (AOD) of the received signal-to-interference-plus-noise ratio (SINR) is very useful in designing and analyzing the communication system performance in a cellular environment with co-channel interference (CCI). In this paper, we study the analytical LCR and the AOD of the received SINR on Rayleigh fading channels with CCI. A closed-form expression for the LCR and the AOD is obtained for the general case of multiple co-channel interferers, traveling at different speeds, with unequal powers and with additive white Gaussian noise. We also specialize the derived results to the case of both interference-limited and noise-limited scenarios.

 

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    •  NEWS    MILCOM 2010: 2 publications by Petros T. Boufounos and Jinyun Zhang
      Date: October 31, 2010
      Where: IEEE Military Communications Conference (MILCOM)
      MERL Contacts: Jinyun Zhang; Petros T. Boufounos
      Brief
      • The papers "Level Crossing Rates and Average Outage Durations of SINR with Multiple Co-Channel Interferers" by Annavajjala, R. and Zhang, J. and "Compressive Sensing for Streaming Signals using the Streaming Greedy Pursuit" by Boufounos, P.T. and Asif, M.S. were presented at the IEEE Military Communications Conference (MILCOM).
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